Section I: Natural Gas Dehydration Concepts1. Introduction to natural gas dehydration methods and technologies2. Challenges of wet natural gas3. Natural gas dehydration standards, policies and regulations4. Economic assessments and environmental challenges of natural gas dehydration technologies

Section I: Absorption Techniques for Natural Gas Dehydration5. Glycol absorbents for natural gas dehydration6. Ionic liquids for natural gas dehydration7. Deep eutectic solvents for natural gas dehydration

Section II: Adsorption Techniques for Natural Gas Dehydration8. Swing processes for natural gas dehydration: pressure, thermal, vacuum, electrical and mixed swing processes9. Activated alumina and silica gel adsorbents for natural gas dehydration10. Carbonaceous sorbents for natural gas dehydration11. Zeolite and molecular sieves for natural gas dehydration12. Metal-oxide adsorbents for natural gas dehydration13. Natural gas dehydration using hygroscopic salts: CaCL₂ and others

Section III: Membrane Technology for Natural Gas Dehydration14. Hollow-fiber membranes for natural gas dehydration15. Zeolite membranes for natural gas dehydration16. Polymeric membranes for natural gas dehydration

Section IV: Other Technologies for Natural Gas Dehydration17. Direct cooling and compression followed by cooling processes for natural gas dehydration18. Supersonic technology for natural gas dehydration19. Natural gas dehydration in a micro-reactor